Nearest-neighbour Attraction Stabilizes Staggered Currents in the 2D
  Hubbard Model

D.A. Ivanov; F. Mancini; I. Affleck; J.B. Marston; L.M. Roth; P.W. Leung; Philip Phillips; S. Avella; S. Chakravarty; T.C. Hsu; T.D. Stanescu; Tudor D. Stanescu

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Nearest-neighbour Attraction Stabilizes Staggered Currents in the 2D Hubbard Model

Authors: D.A. Ivanov
F. Mancini
I. Affleck
J.B. Marston
L.M. Roth
P.W. Leung
Philip Phillips
S. Avella
S. Chakravarty
T.C. Hsu
T.D. Stanescu
Tudor D. Stanescu
Publication date: 20 April 2001
Publisher: 'American Physical Society (APS)'
Doi

Abstract

Using a strong-coupling approach, we show that staggered current vorticity does not obtain in the repulsive 2D Hubbard model for large on-site Coulomb interactions, as in the case of the copper oxide superconductors. This trend also persists even when nearest-neighbour repulsions are present. However, staggered flux ordering emerges {\bf only} when attractive nearest-neighbour Coulomb interactions are included. Such ordering opens a gap along the

(\pi,0)-(0,\pi)

direction and persists over a reasonable range of doping.Comment: 5 pages with 5 .eps files (Typos in text are corrected

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